BACKGROUND: Alterations of human patched (ptc) homolog have been proven to be responsible for basal cell nevus syndrome (BCNS). Mandibular cysts in heterozygous ptc knockout mouse (ptc+/- mouse) were microradiologically, histologically, immunohistochemically, and genetically examined to investigate the possible role of the ptc gene and its associates in the jaw cysts. METHODS: The mandibular bones were prepared from 63 ptc+/- mice and 6 ptc+/+ mice. Soft X-ray radiographs and histological sections were examined for detection of the presence of mandibular cysts. The mandibular cysts were immunohistochemically investigated using anti-ptc, shh, and smo antibodies. PCR analysis of loss of heterozygosity (LOH) of ptc was performed in genomic DNA from the mandibular cysts. RESULTS: Six ptc+/+ mice showed no pathologic change in any examinations. Microradiologically, ptc+/- mice did not show any apparent lesion. Mandibular cysts were often multiple, and were histologically detected in the alveolar bones or periodontal ligaments of the molars in 16 (25.4%) ptc+/- mice. The mandibular cysts were lined by thin parakeratotic stratified squamous epithelium and contained keratinized materials. Immunohistochemical examination showed sonic hedgehog (shh) protein mainly in cyst lining epithelium, and ptc and smoothened (smo) proteins in cyst lining epithelium, and surrounding fibrous connective tissue. Expression of ptc protein in the cyst lining epithelium tended to be weak as compared with incisor enamel organs and gingival stratified squamous epithelium. LOH of the ptc gene couldn't be found in lining epithelium of mandibular cysts in any ptc+/- mice. CONCLUSIONS: Ptc+/- mouse is a useful model of BCNS from the standpoint of occurrence of jaw cysts, and downregulation of ptc protein in cyst lining epithelium caused by gene targeting would be associated with formation of jaw cysts in ptc+/- mice.
BACKGROUND: Alterations of human patched (ptc) homolog have been proven to be responsible for basal cell nevus syndrome (BCNS). Mandibular cysts in heterozygous ptc knockout mouse (ptc+/- mouse) were microradiologically, histologically, immunohistochemically, and genetically examined to investigate the possible role of the ptc gene and its associates in the jaw cysts. METHODS: The mandibular bones were prepared from 63 ptc+/- mice and 6 ptc+/+ mice. Soft X-ray radiographs and histological sections were examined for detection of the presence of mandibular cysts. The mandibular cysts were immunohistochemically investigated using anti-ptc, shh, and smo antibodies. PCR analysis of loss of heterozygosity (LOH) of ptc was performed in genomic DNA from the mandibular cysts. RESULTS: Six ptc+/+ mice showed no pathologic change in any examinations. Microradiologically, ptc+/- mice did not show any apparent lesion. Mandibular cysts were often multiple, and were histologically detected in the alveolar bones or periodontal ligaments of the molars in 16 (25.4%) ptc+/- mice. The mandibular cysts were lined by thin parakeratotic stratified squamous epithelium and contained keratinized materials. Immunohistochemical examination showed sonic hedgehog (shh) protein mainly in cyst lining epithelium, and ptc and smoothened (smo) proteins in cyst lining epithelium, and surrounding fibrous connective tissue. Expression of ptc protein in the cyst lining epithelium tended to be weak as compared with incisor enamel organs and gingival stratified squamous epithelium. LOH of the ptc gene couldn't be found in lining epithelium of mandibular cysts in any ptc+/- mice. CONCLUSIONS: Ptc+/- mouse is a useful model of BCNS from the standpoint of occurrence of jaw cysts, and downregulation of ptc protein in cyst lining epithelium caused by gene targeting would be associated with formation of jaw cysts in ptc+/- mice.
Authors: Marina Grachtchouk; Jianhong Liu; Aiqin Wang; Lebing Wei; Christopher K Bichakjian; Jonathan Garlick; Augusto F Paulino; Thomas Giordano; Andrzej A Dlugosz Journal: Am J Pathol Date: 2006-09 Impact factor: 4.307
Authors: Mina S Ally; Jean Y Tang; Timmy Joseph; Bobbye Thompson; Joselyn Lindgren; Maria Acosta Raphael; Grace Ulerio; Anita M Chanana; Julian M Mackay-Wiggan; David R Bickers; Ervin H Epstein Journal: JAMA Dermatol Date: 2014-05 Impact factor: 10.282
Authors: Lauren E Miller; Vivienne Au; Tara E Mokhtari; Deborah Goss; Daniel L Faden; Mark A Varvares Journal: Cancers (Basel) Date: 2022-02-16 Impact factor: 6.639